the answer should be Pb=18.41 KPa
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the answer should be Pb=18.41 KPa
For the inclined-leg of the mercury manometer of Fig. 1-2,...
Determine the new differential reading along the inclined leg of the mercury manometer of the figure...
Determine the new differential reading along the inclined leg of
the mercury manometer of the figure below, if the pressure in pipe
A is decreased 25 kPa and the pressure in pipe B
remains unchanged. The fluid in A has a specific gravity
of 0.9 and the fluid in B is water.
Assume h1 = 40 mm, h2 = 20
mm, h3 = 32 mm.
Determine the new differential reading along the inclined leg of the mercury manometer of the...
Determine the new differential reading along the inclined leg of the mercury manometer as shown in the figure, if the pressure in pipe A is decreased 10 kPa and the pressure in pipe B remains unchanged. The fluid in A has a specific gravity of 0.9 and the
Determine the new differential reading along the inclined leg of the mercury manometer as shown in the figure, if the pressure in pipe A is decreased 10 kPa and the pressure in pipe B remains unchanged. The fluid in A has a specific gravity of 0.9 and the fluid in B is water.
Fluid Statics --- The reading L= 5 0mm of an inclined 13. (12%) mercury manometer shown...
Fluid Statics --- The reading L= 5 0mm of an inclined 13. (12%) mercury manometer shown below is at equilibrium. If pressure at point B remains the same while pressure of point A is decreased by 15 kPa, what would be the new final reading of L? SG = 0.9 Water A 100 mm 30° 80 mm 50 mm Mercury
fluid mechanics2.45
determine the new differential reading along the inclined leg of the mercury manometer of figure P2.45, if the pressure in pipe A is decreased 10kPa and the pressurein pipe B remains unchanged. The fluid in A has a specific gravity of 0.9 and the fluid in B is water.
Q3) An inclined manometer tube is connected to two closed tanks as shown in the figure...
Q3) An inclined manometer tube is connected to two closed tanks as shown in the figure below where !-210 cm. A gage was used to measure the pressure at the center of tank A and the reading was 60 kPa. A barometer locates near the tanks reads 72 cm of mercury. Specific weight of water is 9.81 kN/m3 and specific gravity (SG) of mercury is 13.6. a) Find the gage pressure in the center of tank B. b) Find the...
Problem 2: Fig. 2 shows a multi-fluid manometer used to measure the absolute pressure of the air container at A. What would be the reading L when the absolute pressure at A is 125 kPa? Mercury SG...
Problem 2: Fig. 2 shows a multi-fluid manometer used to measure the absolute pressure of the air container at A. What would be the reading L when the absolute pressure at A is 125 kPa? Mercury SG- 13.56, Oil SG 0.86. 01 Air 32 cm 18 em 35 15 cm Fig. 2 Water Mercury
Problem 2: Fig. 2 shows a multi-fluid manometer used to measure the absolute pressure of the air container at A. What would be the reading L...
Pipe A contains gasoline(SG=0.70) , pipe B contains oil(SG=0.90), and the manometer fluid is mercury. Determine...
Pipe A contains gasoline(SG=0.70) , pipe B contains
oil(SG=0.90), and the manometer fluid is mercury. Determine the new
differential reading if the pressure in pipe A is decreased 25 kPa,
and the pressure in pipe B remains constant. The initial
differential reading is 0.30 m as shown. Use unit weight of water =
9810 N/m3
0.4 m Oil 0.3 m , Merc Gasoline?
Fluid statics
For the inclined-tube manometer the pressure in pipe A is 0.8psi. The fluid in both pipes A and B is water, and the gage fluid in the manometer has a specific gravity of 2.6. What is the pressure in pipe B corresponding to the differential reading shown?
Consider the system in Fig Q1 (a). If a change of 0.9 kPa in the pressure of air causes the brine...
Consider the system in Fig Q1 (a). If a change of 0.9 kPa in the pressure of air causes the brine-mercury interface in the right column to drop by 5 mm in the brine level in the right Air Brine pipe SG-1.1 Ah,-5 mm Area, A2 Water Area, A1 Mercury SG-13.56
Consider the system in Fig Q1 (a). If a change of 0.9 kPa in the pressure of air causes the brine-mercury interface in the right column to drop by...
Y = 3 m (pa-pb) = 46 KN/m^2 Q.2. Figure:2 shows a U tube differential manometer...
Y = 3 m
(pa-pb) = 46 KN/m^2
Q.2. Figure:2 shows a U tube differential manometer connecting two pressure pipes at A and B. The pipe A and B contains water and manometer fluid is mercury. If the pressure difference between two pipe (p.-p.) is (X) kN/m’. Calculate the difference in level (h). (3 Marks) Water water 0.3 m у h Mercury Sp. gravity 13.6
Determine the new differential reading along the inclined leg of
the mercury manometer of the figure below, if the pressure in pipe
A is decreased 25 kPa and the pressure in pipe B
remains unchanged. The fluid in A has a specific gravity
of 0.9 and the fluid in B is water.
Assume h1 = 40 mm, h2 = 20
mm, h3 = 32 mm.
Determine the new differential reading along the inclined leg of the mercury manometer of the...
Fluid Statics --- The reading L= 5 0mm of an inclined 13. (12%) mercury manometer shown below is at equilibrium. If pressure at point B remains the same while pressure of point A is decreased by 15 kPa, what would be the new final reading of L? SG = 0.9 Water A 100 mm 30° 80 mm 50 mm Mercury
Q3) An inclined manometer tube is connected to two closed tanks as shown in the figure below where !-210 cm. A gage was used to measure the pressure at the center of tank A and the reading was 60 kPa. A barometer locates near the tanks reads 72 cm of mercury. Specific weight of water is 9.81 kN/m3 and specific gravity (SG) of mercury is 13.6. a) Find the gage pressure in the center of tank B. b) Find the...
Problem 2: Fig. 2 shows a multi-fluid manometer used to measure the absolute pressure of the air container at A. What would be the reading L when the absolute pressure at A is 125 kPa? Mercury SG- 13.56, Oil SG 0.86. 01 Air 32 cm 18 em 35 15 cm Fig. 2 Water Mercury
Problem 2: Fig. 2 shows a multi-fluid manometer used to measure the absolute pressure of the air container at A. What would be the reading L...
Pipe A contains gasoline(SG=0.70) , pipe B contains
oil(SG=0.90), and the manometer fluid is mercury. Determine the new
differential reading if the pressure in pipe A is decreased 25 kPa,
and the pressure in pipe B remains constant. The initial
differential reading is 0.30 m as shown. Use unit weight of water =
9810 N/m3
0.4 m Oil 0.3 m , Merc Gasoline?
For the inclined-tube manometer the pressure in pipe A is 0.8psi. The fluid in both pipes A and B is water, and the gage fluid in the manometer has a specific gravity of 2.6. What is the pressure in pipe B corresponding to the differential reading shown?
Consider the system in Fig Q1 (a). If a change of 0.9 kPa in the pressure of air causes the brine-mercury interface in the right column to drop by 5 mm in the brine level in the right Air Brine pipe SG-1.1 Ah,-5 mm Area, A2 Water Area, A1 Mercury SG-13.56
Consider the system in Fig Q1 (a). If a change of 0.9 kPa in the pressure of air causes the brine-mercury interface in the right column to drop by...
Y = 3 m
(pa-pb) = 46 KN/m^2
Q.2. Figure:2 shows a U tube differential manometer connecting two pressure pipes at A and B. The pipe A and B contains water and manometer fluid is mercury. If the pressure difference between two pipe (p.-p.) is (X) kN/m’. Calculate the difference in level (h). (3 Marks) Water water 0.3 m у h Mercury Sp. gravity 13.6
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